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with the MEADS Launcher as initial operational proof of the plug-and-fight capability. The MFCR demonstrated key functionalities including 360-degree target acquisition and track using both dedicated flights and other air traffic. Then, at White Sands
Missile Range, MEADS demonstrated a first-ever over-the-shoulder launch of the PAC-3 MSE missile against a simulated target attacking from behind. It required a unique sideways maneuver, demonstrating a 360-degree capability. The missile executed a planned self-destruct sequence at the end of the mission after successfully engaging the simulated threat.
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fulfill its commitment to complete the design and development effort, but that it would not procure the MEADS system for budgetary reasons. Lockheed Martin developed an interactive life cycle cost and capabilities application based on their
Dynamic Comparative Analysis Methodology (DCAM) approach to more fully evaluate and communicate the performance and cost advantage of MEADS as compared to alternative systems. The DCAM application further reinforced the value of MEADS and is credited with helping ensure continued funding.
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can be expanded or contracted as the situation dictates and precludes single point failure if one node becomes inoperable. It also has a plug-and-fight capability that allows MEADS launchers and radars to seamlessly enter and leave the network without shutting it down and interrupting ongoing operations. MEADS uses open, non-proprietary standardized interfaces to extend plug-and-fight to non-MEADS elements. This flexibility is new for ground-based AMD systems.
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awarded to incorporate a new interceptor approach. In May 2005, MEADS International signed a definitized contract valued at $ 2 billion plus â¬1.4 billion for MEADS design and development. This development contract was completed in 2014. The U.S. funded 58 percent of the MEADS Design and
Development program, with European partners Germany and Italy providing 25 percent and 17 percent respectively.
277:) components for the radar. The MFCR radar provides precision tracking and wideband discrimination and classification capabilities. For extremely rapid deployments, the MEADS MFCR can provide both surveillance and fire control capabilities until a surveillance radar joins the network. The MFCR uses its main beam for uplink and downlink missile communications. An advanced
318:
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474:, flying a tactical ballistic missile trajectory, attacked from the north. The Surveillance Radar acquired both targets and provided target cues to the MEADS battle manager, which generated cue commands for the MFCR. The MFCR tracked both targets successfully and guided missiles from launchers in the Italian and German configurations to successful intercepts.
43:
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In July 2014, MEADS completed a comprehensive system demonstration at
Pratica di Mare Air Base, Italy. The tests, including operational demonstrations run by German and Italian military personnel, were designed to seamlessly add and subtract system elements under representative combat conditions, and
477:
At White Sands
Missile Range, Lockheed Martin and Northrop Grumman also demonstrated plug-and-fight connectivity between MEADS and the U.S. Army's Integrated Battle Command System (IBCS). IBCS demonstrated ability to plug-and-fight a 360-degree MEADS Surveillance Radar and Multifunction Fire Control
431:
In July 2010, the MEADS BMC4I demonstrated its interoperability with the NATO Air
Command and Control System (ACCS) during tests using the Active Layer Theatre Ballistic Missile Defense (ALTBMD) Integration Test Bed being developed by NATO. The test was an early maturity demonstration for the MEADS
418:
Units can be dispersed over a wide area. Command and control of launchers and missiles can be handed over to a neighboring battle management unit while the initial systems are moved, maintaining maneuver force protection. Plug-and-fight connectivity lets MEADS elements attach to and detach from the
337:
that allows any combination of sensors and launchers to be organized into a single air and missile defense battle element. The system is netted and distributed. Every MEADS battle manager, radar, and launcher is a wireless node on the network. By virtue of multiple communications paths, the network
233:
The MEADS air and missile defense system is composed of six major equipment items. The MEADS radars, battle manager, and launchers are designed for high reliability so that the system will be able to maintain sustained operations much longer than legacy systems, resulting in overall lower operation
193:
completed an analysis of air defense alternatives in 2010 and strongly recommended MEADS as the basis for improving
Germany's missile defense shield and as Germany's contribution to the European Phased Adaptive Approach. In February 2011, the U.S. Department of Defense announced that it intended to
493:
In
September 2014, MEADS MFCRs completed a six-week performance test at Pratica di Mare Air Base, Italy, and MBDA Deutschland's air defense center in Freinhausen. During the tests, the MEADS MFCR successfully demonstrated several advanced capabilities, many of which are critical for ground-mobile
446:
In
November 2011, it was announced that the MEADS Multifunction Fire Control Radar had been integrated with a MEADS TOC and launcher at Pratica di Mare Air Force Base. The objectives of the integration test series were to demonstrate that the MEADS TOC could control the MEADS MFCR in coordination
374:
The PAC-3 Missile
Segment Enhancement (MSE) missile is the baseline interceptor for MEADS. The interceptor increases the system's range and lethality over the baseline PAC-3 missile, which was selected as the primary missile for MEADS when the design and development program began in 2004. The MSE
159:
Missile Segment Enhancement (MSE) missile in a system including 360-degree surveillance and fire control sensors, netted-distributed tactical operations centers, and lightweight launchers. A single MEADS battery is able to defend up to 8 times the area of a Patriot battery through use of advanced
462:
In November 2013, MEADS intercepted and destroyed two simultaneous targets attacking from opposite directions during a stressing demonstration of its 360-degree AMD capabilities at White Sands Missile Range, New Mexico. All elements of the MEADS system were tested, including the 360-degree MEADS
501:
announced that Germany had selected MEADS as the foundation for its Taktisches Luftverteidigungssystem (TLVS), which is planned to replace Germany's Patriot systems. In January 2017, MEADS International presented an updated offer for Poland's medium-range air defense (WisÅa) program to Poland's
454:
Several progress milestones were demonstrated during 2013, culminating in a 360-degree dual-intercept test that went beyond initial contract objectives. In April, the MEADS Surveillance Radar acquired and tracked a small test aircraft and relayed its location to a MEADS TOC, which generated cue
422:
The MEADS plug-and-fight capability enables command and control over other air and missile defense system elements through open, non-proprietary standardized interfaces. MEADS implements a unique ability to work with secondary missile systems if selected, and to evolve as other capabilities are
485:
During the test, plug-and-fight capability to rapidly attach and control an external Italian deployable air defense radar was demonstrated. Also demonstrated was engage-on-remote flexibility, which allows operators to target threats at greater distances despite being masked by terrain. Through
410:
flexibility lets MEADS exchange data with non-MEADS sensors and shooters. The same capability lets MEADS move with ground forces and interoperate with allied forces. Through interoperability features designed into the system, MEADS will dramatically improve combat effectiveness and situational
183:
Italia, MBDA Deutschland GmbH, and Lockheed Martin. The company initially won a competitive downselect to develop the MEADS system in 1999, but the program could not be started because the losing competitor filed two successive suits. In 2001, a $ 216 million Risk Reduction Effort contract was
147:
MEADS provides ground-mobile air and missile defense with expanded coverage. The system provides enhanced force protection against a broad array of third-dimension threats. Improved interoperability, mobility, and full 360-degree defense capability against the evolving threat represent are key
450:
In November 2012 at White Sands Missile Range, MEADS detected, tracked, intercepted, and destroyed an air-breathing target in an intercept flight test. The test configuration included a networked MEADS Tactical Operations Center, lightweight launcher firing a PAC-3 MSE, and a 360-degree MEADS
489:
Interoperability with German and Italian air defense assets was demonstrated through exchange of standardized NATO messages. Italian air-defense assets were integrated into a test bed at an Italian national facility, while the Surface to Air Missile Operations Centre and Patriot assets were
458:
In June 2013, during six days of testing, MEADS demonstrated network interoperability with NATO systems during Joint Project Optic Windmill (JPOW) exercises. MEADS demonstrated battle management capability to transmit, receive, and process Link 16 messages and to conduct threat engagements.
354:
The lightweight MEADS launcher is easily transportable, tactically mobile, and capable of rapid reload. It carries up to eight PAC-3 Missile Segment Enhancement (MSE) Missiles and achieves launch readiness in minimum time. A MEADS reloader is similar but lacks launcher electronic systems.
171:
The minimum MEADS engagement capability requires only one launcher, one battle manager, and one fire control radar to provide 360-degree defense of troops or critical assets. As more system elements arrive, they automatically and seamlessly join the MEADS network and build out capability.
197:
In October 2011, the National Armaments Directors of Germany, Italy, and the U.S. approved a contract amendment to fund two flight intercept tests, a launcher/missile characterization test, and a sensor characterization test conducted to complete the planned development scope.
224:
system. However, Lockheed Martin began renewed discussions with the Polish Ministry of Defense in February 2016 leading to a formal request for information in September 2016. MEADS remains a candidate for Poland's Narew short range air defense system procurement.
167:
transport aircraft so they are quickly deployed to a theater of operations. Because MEADS uses fewer system assets, it permits a substantial reduction in deployed personnel and equipment. MEADS reduces demand for airlift, so it can deploy to theater faster.
1309:
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Surveillance Radar, a networked MEADS battle manager, two lightweight launchers firing PAC-3 Missile Segment Enhancement (MSE) Missiles and a 360-degree MEADS Multifunction Fire Control Radar (MFCR). The flight test achieved all criteria for success.
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radar that provides extended range coverage. It provides threat detection capability against highly maneuverable low-signature threats, including short- and medium-range ballistic missiles, cruise missiles, and other air-breathing threats.
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360-degree sensors, near-vertical launch capability, and the longer-range PAC-3 MSE missile. The MEADS radars â using active phased arrays and digital beam forming â enable full use of the PAC-3 MSE missile's extended range.
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integrated into a test bed at the German Air Force Air Defense Center in Fort Bliss, Texas. MEADS further demonstrated capability to perform engagement coordination with other systems, which fielded system are unable to do.
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aspects. MEADS is the first air and missile defense (AMD) system that provides continuous on-the-move protection for maneuver forces. MEADS also provides area defense, homeland defense, and weighted asset protection.
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In December 2010, the first MEADS launcher and Tactical Operations Center were displayed in ceremonies in Germany and Italy before initiating system integration tests at Pratica di Mare Air Force Base in Italy.
118:
MEADS is designed to address the shortcomings of fielded systems and to permit full interoperability between U.S. and allied forces. Germany chose MEADS to replace their MIM-104 Patriot systems in June 2015.
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radar systems. Capabilities tested include tracking and canceling of jamming signals; searching, cueing and tracking in ground clutter; and successfully classifying target data using kinematic information.
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as secondary missile for ground-based medium range air defense. It is based on the IRIS-T air-to-air missile equipped with an enlarged rocket motor, datalink, and jettisonable drag-reducing nose cone.
1353:
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In August 2010, the MEADS program completed an extensive series of Critical Design Review (CDR) events with a Summary CDR at MEADS International. Reviewers from Germany, Italy, the U.S., and the
541:â an active electronically scanned array radar is a type of phased array radar whose transmitter and receiver functions are composed of numerous small solid-state transmit/receive modules (TRMs)
131:
The Medium Extended Air Defense System (MEADS) intercepted and destroyed two simultaneous targets attacking from opposite directions during a demonstration of its 360-degree capabilities at
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209:(IFF) system. Mode 5 is more secure and provides positive line-of-sight identification of friendly platforms equipped with an IFF transponder to better protect allied forces.
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216:(TLVS), a new generation of air and missile defense that requires flexible architecture based on strong networking capabilities. MEADS was a candidate for Poland's
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The MEADS Multifunction Fire Control Radar, shown in its German configuration, can detect and track advanced threats with 360-degree coverage and no blind spots.
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medium range air defense system procurement, but was eliminated in June 2014 when competition was downselected to the US Patriot system and the French/Italian
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From the MEADS battle manager, a commander can add or subtract sensors and launchers as the situation dictates without shutting down the system.
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search commands. The MFCR, in full 360-degree rotating mode, searched the cued area, acquired the target, and established a dedicated track.
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A MEADS Surveillance Radar acquired both targets and provided target cues to the MEADS battle manager during a dual-intercept flight test at
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missile increases the engagement envelope and defended area by using more responsive control surfaces and a more powerful rocket motor.
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547:â ability of system elements to attach to and detach from the network at will, with no requirement to shut the system down.
1521:
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reassigning workload, MEADS demonstrated ability to maintain defense capabilities if any system element is lost or fails.
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incidents. MEADS system elements can seamlessly integrate into each nation's, or NATO's, combat architecture as required.
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Multifunction Fire Control Radar, which tracked the MQM-107 target and guided the missile to a successful intercept.
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system through a NATO-managed development. The program is a development of the United States, Germany and Italy.
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to blend MEADS with other systems in a larger system architecture. All criteria for success were achieved.
2100:
2011:
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333:(command, control, computers, communications, and intelligence). It controls an advanced network-centric
221:
105:
101:
31:
2072:
1806:
1661:
1606:
1061:
937:"Example of control and optimization R&D and Production processes in semiconductor III-V industry"
242:
1711:
1310:"Comprehensive MEADS Network Tests Demonstrate Unmatched Plug-and-Fight Missile Defense Capabilities"
526:
521:
498:
30:
This article is about the missile defence system. For other articles about things called Meads, see
1666:
1399:
943:
829:"MEADS air defense system IFF Identification Friend or Foe system has been certified for operation"
388:
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is supplied by the Selex Sistemi Integrati foundry in Rome. The photonics foundry in Rome supplies
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The prime contractor, MEADS International, is a multinational joint venture headquartered in
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1102:"MEADS Demonstrates Interoperability With NATO Air Command and Control System in Joint Test"
176:
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439:(NAMEADSMA) evaluated the MEADS design criteria in a comprehensive series of 47 reviews.
139:
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1411:
1241:"MEADS Low Frequency Sensor Successfully Cues Multifunction Fire Control Radar in Test"
627:
544:
407:
2125:
1731:
1405:
412:
1427:â Further information on the IRIS-T SL/SLS missile by German manufacturer Diehl BGT.
254:(AESA) radar using element-level transmit/receive modules developed in Germany. The
2077:
1821:
471:
704:
1332:"MEADS Multifunction Fire Control Radar Proves Capabilities in Performance Tests"
1212:"MEADS Successfully Intercepts Air-Breathing Target at White Sands Missile Range"
1751:
1716:
1536:
617:
608:
1263:"MEADS Tactical BMC4I Software Demonstrates Interoperability in NATO Exercises"
1996:
1696:
189:
1354:"Germany Announces MEADS Selection for Future Air and Missile Defense System"
1285:"Unprecedented Dual Intercept Success for MEADS at White Sands Missile Range"
1168:"MEADS Demonstrates Advanced Plug-And-Fight Capabilities in Integration Test"
1146:"First MEADS Battle Manager Ready for System Tests at Italian Air Force Base"
936:
843:"Germany Announces MEADS Selection for Future Air and Missile Defense System"
1991:
1976:
1791:
810:. Office of the Under Secretary of Defense. 11 February 2011. Archived from
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558:
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1190:"MEADS Conducts Successful First Flight Test At White Sands Missile Range"
317:
1966:
1961:
1956:
1951:
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744:"MEADS INTERNATIONAL SIGNS $ 216 MILLION RISK REDUCTION EFFORT CONTRACT"
2062:
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267:
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769:"National Armaments Directors Approve MEADS Program Continuation Plan"
1681:
1376:"MEADS INTERNATIONAL PROVIDES UPDATED OFFER FOR POLISH WISÅA PROGRAM"
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604:
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270:
17:
675:
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In Germany, the PAC-3 MSE missile is expected to be supplemented by
1219:
143:
MEADS Over-the-Shoulder Launch at White Sands (MEADS International)
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air-breathing target, approached from the south. Simultaneously a
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Truck-mounted MEADS elements drive or roll on and off C-130 and
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network at will, with no requirement to shut the system down.
330:
284:
subsystem supports improved threat identification and typing.
201:
In September 2013, MEADS received operating certification for
36:
212:
In June 2015, MEADS was selected as the basis for the German
897:"MEADS Ready For Transition to European Follow-On Programs"
437:
NATO Medium Extended Air Defense System Management Agency
551:
Integrated Air and Missile Defense Battle Command System
350:
MEADS launcher with eight PAC-3 MSE launching canisters
57:
1304:
1302:
2073:
RIM-174 Standard Extended Range Active Missile (SM-6)
1130:. Lockheed Martin. 15 September 2010. Archived from
763:
761:
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2020:
1944:
1937:
1906:
1652:
1615:
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1152:. Lockheed Martin. 20 December 2010. Archived from
52:
may be too technical for most readers to understand
1124:"MEADS Completes CDR and Is Ready For Flight Test"
924:, United States: Army, pp. 42â3, JulâSep 2008
1086:. Lockheed Martin. 14 August 2007. Archived from
1084:"MEADS Unveils Advanced Battle Management System"
787:"Germany backs MEADS defence system over Patriot"
304:The UHF MEADS Surveillance Radar is a 360-degree
2106:North American Aerospace Defense Command (NORAD)
997:Third Meads battle manager arrives in Huntsville
616:â the very short-range protection system of the
529:- Next-generation Russian anti-ballistic missile
1972:AN/SPY-7 Long Range Discrimination Radar (LRDR)
1000:(press release), Lockheed Martin, February 2012
2007:AN/FPS-132 Upgraded Early Warning Radar (UEWR)
2002:Solid State Phased Array Radar System (SSPARS)
1982:Ballistic Missile Early Warning System (BMEWS)
2033:Space Tracking and Surveillance System (STSS)
1967:AN/SPY-6 Air and Missile Defense Radar (AMDR)
1884:
1446:
984:(press release), Lockheed Martin, August 2012
8:
2137:Anti-ballistic missiles of the United States
1977:PAVE Phased Array Warning System (PAVE PAWS)
1924:Terminal High Altitude Area Defense (THAAD)
1941:
1929:Medium Extended Air Defense System (MEADS)
1891:
1877:
1869:
1568:LM Transportation & Security Solutions
1476:
1453:
1439:
1431:
1032:(press release), Lockheed Martin, Jan 2008
1016:(press release), Lockheed Martin, Oct 2011
863:[Americans More Active in Wisla].
153:Lockheed Martin Missiles and Fire Control
80:Learn how and when to remove this message
64:, without removing the technical details.
2111:United States Space Command (USSPACECOM)
2088:Network Centric Airborne Defense Element
1044:"IRIS-T Guided Missile Family IRIS-T SL"
831:. Armyrecognition.com. 4 September 2013.
553:(IBCS) â U.S. Army program to integrate
273:
644:
411:awareness, reducing the possibility of
238:Multifunction Fire Control Radar (MFCR)
1914:Aegis Ballistic Missile Defense System
726:"NATO agency turns down MEADS protest"
62:make it understandable to non-experts
7:
2147:21st-century surface-to-air missiles
1919:Ground-Based Midcourse Defense (GMD)
1900:Missile defense in the United States
1849:
535:- U.S. anti-ballistic missile system
2028:Space-Based Infrared System (SBIRS)
1338:. 23 September 2014. Archived from
1218:. November 29, 2012. Archived from
958:"photonics in selex si m. dispenza"
861:"Amerykanie aktywniejsi przy WiÅle"
539:Active electronically scanned array
306:active electronically steered array
252:active electronically scanned array
2152:Surface-to-air missiles of Germany
2142:Anti-ballistic missiles of Germany
2038:Space Surveillance Telescope (SST)
1196:. 17 November 2011. Archived from
1174:. 10 November 2011. Archived from
1029:Meads receives 66 million contract
214:Taktisches Luftverteidigungssystem
179:. Its participating companies are
94:Medium Extended Air Defense System
25:
2068:RIM-161 Standard Missile 3 (SM-3)
1291:. 6 November 2013. Archived from
1108:. Lockheed Martin. Archived from
607:â new air defense missile of the
497:On 9 June 2015, Defense Minister
2157:PostâCold War weapons of Germany
2083:Kinetic Energy Interceptor (KEI)
1848:
1835:
1834:
1633:LM Space Applications Laboratory
1585:
1553:LM Global Training and Logistics
1408:â German and Italian contractors
805:"U.S. MEADS Decision Fact Sheet"
370:MIM-104 Patriot § PAC-3 MSE
313:Tactical Operations Center (TOC)
41:
1247:. 19 April 2013. Archived from
964:. 28 March 2015. Archived from
626:â air defense system using the
108:system intended to replace the
27:Air- and missile-defense system
2012:Sea-based X-band Radar (SBX-1)
1628:Knolls Atomic Power Laboratory
1563:LM Systems Integration â Owego
1558:LM Mission Systems and Sensors
1316:. 24 July 2013. Archived from
1269:. 19 June 2013. Archived from
915:"MEADS: Evolving Capabilities"
750:. 10 July 2001. Archived from
533:Ground-Based Midcourse Defense
502:Ministry of National Defense.
1:
1512:LM Rotary and Mission Systems
1360:. 9 June 2015. Archived from
2101:Missile Defense Agency (MDA)
1643:Sandia National Laboratories
1507:LM Missiles and Fire Control
1412:Lockheed Martin product page
620:within the "SysFla" program.
427:Integration and test history
387:Diehl IRIS-T SL launcher at
282:identification friend-or-foe
207:Identification friend or foe
1992:AN/FPS-85 Space Track Radar
1400:MEADS International website
2173:
1013:Lightweight Meads launcher
935:Lanzieri, Claudio (2010).
367:
29:
2096:
1830:
1638:Michoud Assembly Facility
1583:
1502:LM Information Technology
298:White Sands Missile Range
133:White Sands Missile Range
250:An X-band, solid-state,
1402:â MEADS program website
1046:. Diehl. Archived from
359:Certified Missile Round
325:The MEADS TOC provides
288:Surveillance Radar (SR)
151:MEADS incorporates the
2058:RIM-67 Standard (SM-2)
1702:Compact Fusion Reactor
1602:United Launch Alliance
879:"WISÅA Program Update"
817:on September 17, 2012.
630:, developed by Norway.
517:S-300VM missile system
391:
351:
322:
301:
247:
144:
136:
32:Meads (disambiguation)
1997:AN/FPS-108 Cobra Dane
1607:United Space Alliance
1342:on 25 September 2014.
386:
349:
342:Launcher and Reloader
320:
295:
245:
229:Major equipment items
142:
130:
100:) is a ground-mobile
1178:on 20 November 2012.
1090:on January 26, 2013.
654:"GlobalSecurity.org"
527:S-500 missile system
522:S-400 missile system
499:Ursula von der Leyen
472:MGM-52 Lance missile
466:The first target, a
203:Mode 5 interrogation
1295:on 9 November 2013.
1216:MEADS International
1200:on 26 January 2013.
1156:on 26 January 2013.
1134:on 26 January 2013.
1112:on 27 January 2013.
981:Meads multifunction
944:University of Padua
234:and support costs.
1417:2016-04-20 at the
1358:lockheedmartin.com
1336:lockheedmartin.com
1314:lockheedmartin.com
1289:lockheedmartin.com
1267:lockheedmartin.com
1245:lockheedmartin.com
1194:lockheedmartin.com
1172:lockheedmartin.com
1150:lockheedmartin.com
1128:lockheedmartin.com
1106:lockheedmartin.com
901:lockheedmartin.com
865:dziennikzbrojny.pl
847:lockheedmartin.com
773:lockheedmartin.com
748:lockheedmartin.com
555:AN/MPQ-64 Sentinel
432:BMC4I capability.
406:In the BMC4I TOC,
392:
352:
323:
302:
248:
145:
137:
2119:
2118:
2046:
2045:
1866:
1865:
1581:
1580:
1532:Sikorsky Aircraft
1421:â U.S. contractor
1406:MBDA product page
1251:on 20 April 2013.
968:on 25 March 2020.
599:F-35 Lightning II
335:open architecture
327:battle management
300:in November 2013.
90:
89:
82:
16:(Redirected from
2164:
2063:MIM-104F (PAC-3)
1987:AN/FPQ-16 EPARCS
1942:
1893:
1886:
1879:
1870:
1858:
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1851:
1844:
1838:
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1787:Orion spacecraft
1623:Goodyear Airdock
1589:
1522:LM Space Systems
1477:
1464:
1455:
1448:
1441:
1432:
1388:
1387:
1382:. Archived from
1372:
1366:
1365:
1364:on 12 June 2015.
1350:
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1328:
1322:
1321:
1320:on 26 July 2014.
1306:
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1273:on 27 June 2013.
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698:
697:"About MEADS"
692:
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678:on 2016-03-18
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669:
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2078:Boeing YAL-1
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1492:LM Australia
1473:subsidiaries
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70:October 2022
67:
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1537:Skunk Works
652:John Pike.
618:German Army
609:German Army
423:developed.
187:The German
123:Description
2126:Categories
1707:Force Hawk
1616:Facilities
1517:LM Orincon
1471:Divisions,
1226:2014-09-26
962:VDokuments
711:2012-01-27
682:2013-01-30
640:References
396:IRIS-T SLM
190:Bundeswehr
1802:Sniper XR
1497:LM Canada
595:AN/APG-81
591:Aegis BMD
559:AN/MPQ-65
379:IRIS-T SL
364:PAC-3 MSE
1962:AN/SPY-3
1957:AN/TPY-2
1952:AN/SPY-1
1842:Category
1747:Hellfire
1672:AeroText
1655:products
1645:(former)
1415:Archived
1064:. Deagel
601:) radars
587:AN/SPY-6
583:AN/SPY-1
571:AN/TPY-2
506:See also
389:ILA-2018
2051:Weapons
2021:Optical
1938:Sensors
1907:Systems
1856:Commons
1767:Milstar
1757:Longbow
1737:Javelin
1480:Current
791:Reuters
593:), and
478:Radar.
205:in its
113:missile
110:Patriot
56:Please
1752:HIMARS
1692:C-130J
1682:ATACMS
1653:Active
1546:Former
1068:9 June
624:NASAMS
614:MANTIS
605:LFK NG
567:NASAMS
279:Mode 5
222:SAMP/T
1945:Radar
1812:THAAD
1797:SBIRS
1782:Nimiq
1762:MEADS
1732:JASSM
1677:Asroc
1667:Aegis
1662:A2100
1527:LM UK
940:(PDF)
918:(PDF)
815:(PDF)
808:(PDF)
575:THAAD
218:WisÅa
165:A400M
157:PAC-3
98:MEADS
18:MEADS
1807:T-50
1777:MUOS
1772:MLRS
1722:F-35
1717:F-22
1712:F-16
1070:2015
585:and
577:and
468:QF-4
329:and
256:MMIC
181:MBDA
104:and
92:The
1822:U-2
1792:P-3
1742:JCM
1697:C-5
581:),
579:GMD
569:),
331:C4I
102:air
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